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7/27/2019 Rainforest Slide Show
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The Alaskan Rainforest
Alaska Department of Fish and Game
Note to Teachers: This slideshow is intended to be an overview of the temperate rainforest
in Southeast Alaska. You will want to take time ahead of presenting this to your students to
review the slides and use the notes as a guideline to create your own show.
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The Coastal TemperateRainforest of North America
The Alaskan rainforest: natural history
J ohn Schoen
Map reprinted by
permission of Ecotrust
Where do we find temperate rainforests in the world? They extend from
northern California, along coastal British Columbia and to the eastern edge of Kodiak
archipelago in southcentral Alaska. Southeast Alaska lies at the heart of the North American
temperate rainforest. Smaller temperate rainforest are found in southern Chile, Scandinavia,
New Zealand and Tasmania.
Much of Alaska’s rainforest is on National Forest land. National Forests are
public lands managed by the Forest Service. About 77% of Southeast Alaska is Tongass
National Forest, the nation’s largest and the Chugach National Forest extends north from
Cordova to Kodiak.
What makes temperate rainforest different from tropical rainforests? (Cooler,
but just as wet, averaging 200 inches/year.)
The climate is moderated by its proximity to the ocean. The ocean current
brings warmer water from Japan in the winter, keeping the water temperature well above
freezing. (approx. 42 F) In the summer, the ocean’s temperature (55 F) creates fog, which
keeps it cooler. “It’s not too hot, nor is it too cold.”
What do you notice in this picture? It is striking to see the ocean, forest and
large glacial peaks in such close proximity to one another. In Southeast Alaska, you may
travel a distance of only 8 miles and go from sea-level to ice-fields at elevations of over
5,000 ft. The closeness of the mountains to the sea contributes to the huge amount of
precipitation along the coast. The mountains act as a barrier to the clouds, which release
accumulated moisture to the coastal forests below.
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The Alaskan rainforest: trees
westernhemlock
Sitkaspruce
westernred cedar
shore
(lodgepole)
pine
Sitka spruce tip
Craig Flatten, ADF&G
Norio Matsumoto
These forests cover the islands and mainland along the southern coast of
Alaska. Generally, they are found below 2,500 feet and the trees grow largest in broad river
valley with well-drained soil. This slide represents the most common tree species. Are there
a lot of different kinds of trees? (No, temperate forests don’t have the diversity of tropical
rainforests, but they have the greatest amount of living plant life per area of any forest in the
world. However, temperate forests have the highest diversity of coniferous trees. Innorthwestern California, you can find 17 species of coniferous trees w/in 1 square mile, it’s
called the “Miracle Mile”.)
How tall do you think some of these trees grow? (Over 200 feet)
How big are these trees? (Up to 12 feet in diameter) How many students would it
take to get around a tree this size? (approximately 8 students joined together with hands
outstretched.)
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What are the differences between
the Sitka Spruce and Western Hemlock?
Sitka Spruce Western Hemlock
Sitka Spruce has needles growing all the way around the stem and they are
prickly to touch. The cones are larger and when pulled apart the seeds are winged. Whereas
the Western Hemlock’s needles lay flat and its cones are much smaller. This drawing
doesn’t show the size difference. (Passing out examples of each tree type at this point would
be helpful.)
An important difference between these two trees is the way they grow.
Spruce do not grow well in thick shade, so they are the first conifers to take-off when light
is available. The hemlock grow well in low light and eventually reach heights taller than the
spruce. That is one reason old-growth forests have more hemlock than spruce trees.
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Western Red Cedar Shore (lodgepole) Pine
Western Red Cedar and Shore Pine are not as common as spruce and
hemlock and less widely distributed. Western Red Cedar is prominent in the southern
islands like Prince of Wales Island, but is rare anywhere north of Petersburg.
Shore Pine and Yellow Cedar are found in wet, poorly drained areas. Can
you think of a natural community here in Southeast Alaska where you see these kinds of
trees? (Muskeg or Bog) Also known as Peatlands because of the thick layers of peat, slowly
decomposing dead moss and sedges that accumulates over thousands of years.
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Primary Succession
0 years
Glacier snout25 years
Alder-willow50 years
Thickets overtopped100 years
Mixed spruceAnd cottonwood
200 years
Even-aged spruce400+yearsMulti-aged
Hemlock-spruce
Southeast Alaska is a perfect outdoor classroom for studying forest
succession. Succession refers to the replacement of one natural community by another. The
illustration shows the stages from bare rock to the development of an old-growth forest. The
sequence here is typical of moderately well-drained glacial till—an unsorted mix of all
particle sizes from boulders down to clay. The pattern and rate of succession will differ on
other substrates.
Following the retreat of the glaciers, the land itself rises, as the heavy weight
of the ice is lifted. We call this glacial rebound. Along coastal Alaska, evidence of this
uplift is easily seen in the marine terraces rising back into the adjacent forest. Both post-
glacial and uplifted shorelines are examples of primary succession. Other examples of
primary succession occur as new land is created by volcanoes, earthquakes, landslides, fire
and water.
What successional stages do you think provide the greatest diversity of wildlife?
In the pioneer stage, plants start to make the soil allowing other plants to
follow with wildlife close behind. The grasses and forbs produce food for herbivores such
as insects, deer, mice and birds. Carnivores, like wolves and ermine move in to feed on
these herbivores. When alder, willow and cottonwood move in and shade the sun-loving
pioneer plants, larger herbivores like moose come to feed as the shrubs grow taller. Bears
and wolves quickly follow. More insects can survive and with them their predators (shrews,
swallows and warblers). In the even-aged forest, Sitka Spruce dominate and shade out the
deciduous plants, providing meager food for wildlife. As the spruce die, shade-tolerant
hemlock saplings become giant trees and the forest changes to an old-growth, climax forest.
At this stage, 250-600 years after the retreat of a glacier, the forest becomes self-renewing
and is the most diversified habitat in the Alaska rainforest.
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Secondary Succession
25-50 years 75-100 years 150-200 years400+years
A roximate number of ears followin disturbance
Plentiful organic material and largely undisturbed soils remain from the previous forest,
making this pattern known as “secondary succession”. Avalanches, wind storms, insect
outbreaks, tree diseases and human activities such as logging trigger secondary
succession. Disturbances leading to secondary succession generally occur on a smaller
scale than those leading to primary succession.
The upper series traces forest development after a severe windstorm on the upper slopes
where large stands of tree topple. This is called a stand-replacing blowdown. The lower
series follows succession after major flooding in lowland valley eliminating most of the
big trees from previous stream or riverside forests. This is a great illustration to simply
ask the students what differences they observe. If you’d like to provide details regarding
these drawings, please refer to background information sheet for additional information
regarding forest succession and details about this particular slide.
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Multi-Aged Forest
Kristen Romanoff, ADF&G
Kristen Romanoff, ADF&G
Multi-aged trees are an important characteristic of the old-growth forest. Can
you think of any reasons why trees of different ages and sizes would be important to
wildlife, for example?
For one, the different sizes of the trees allow light to penetrate the canopy.
(Canopy refers to the upper layer of a forest where treetops meet.) If all of the trees were the
same size, the canopy would form an umbrella cover, making it difficult for light to get into
the understory. (Understory refers to the layer of plants growing between the forest canopy
and the ground cover.) The light filtering into the forest allows a diversity of plants to grow,
which provides food for herbivores and so on.
Another important factor for wildlife has to do with the upper canopy in the
winter time. Why?
The tallest trees intercept falling snow, leaving the forest floor relatively free
of snow, giving deer easy access to food and shelter from winter storms. Biologists have
found that brown bears, river otters, and even mountain goats winter use old-growth forests
during the winter and return to them while they raising their young.
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Nurse Logs
Kristen Romanoff, ADF&G
Fallen trees are scattered throughout the rainforest. These decomposing trees
provide food and shelter for all sorts of insects, small mammals, birds, fungi and lichen.
These “dead” trees support all kinds of living creatures. Fallen trees act as nurseries for
seedlings, providing nutrients to the young trees. Long after the fallen tree has decayed,
there is evidence of this “nurse log”; young trees growing in rows, as if they were planted
by hand.
Can you think of other ways fallen trees are beneficial to plants and animals
of the rainforest? What happens when a tree falls into a stream? (The fallen tree slows the
current, creating pools for fish and insects. This is important habitat. The fallen log also
stabilizes the stream bank, minimizing erosion.)
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Blow-Down and Biomass
J eff Nicols, ADF&G
Unlike Interior Alaska, fires rarely sweep through the coastal temperate
rainforests. Alaska rainforests rely on other sources for rejuvenation. Flooding in river-
valleys serves this purpose. Succession in the rainforest also depends on winter storms
blowing in from the Pacific Ocean, toppling trees and creating gaps in the forest for light to
penetrate to the forest floor and generate new growth. Red alder, salmonberry and devil’s
club are a few plants who thrive in newly-created openings in the otherwise thick canopy of the forest.
These winter storms are fast and furious, toppling large swaths of trees,
leaving a thick layer of wood and needles to decompose on the forest floor. The
atmospheric carbon that has accumulated in the trees and is not consumed by other
organisms, is buried in the forest. Otherwise, the carbon would continue to accumulate in
the atmosphere. Accumulations of carbon dioxide in the atmosphere are increasing
dramatically. Many scientists believe this is leading to global climate change. (The
Greenhouse Effect) Temperate rainforests help slow down the release of carbon. This is just
one of many important roles the rainforest plays in our lives.
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The Alaskan rainforest: an ecological web
Bob Armstrong
devil’s club
J ohn Hyde, ADF&G
brown bear
Norio Matsumoto
Bald eagle
J eff Nicholsangler
How do fish feed the rainforest?
J on Lyman, ADF&Gpink salmon
J o h n H y d e ,
A D F & G
The Alaskan rainforest is home to a complex web of ecological inter-
relationships that scientists are just beginning to understand. Although large predators, like
the grizzly (brown) bear and the gray wolf have been eliminated from most of their historic
North American range, they still occur in the Alaskan rainforest in densities that are
unrivaled anywhere in the world. Most research has focused on these charismatic wildlife
species. But scientists are beginning to unravel the web of inter-relationships betweenlesser-known species that may, in fact, be vital to the well-being of the rainforest itself.
What do you think about this question? How do fish feed the rainforest?
There are rich populations of invertebrates, such as stoneflies and mayflies,
in fresh-water streams where salmon spawn. It turns out that Pacific salmon, which return to
their birth streams to reproduce and die, carry lots of nutrients accumulated in their bodies
during years of life in the ocean. After they die, these nutrients are released into the streams,
fertilizing and enriching the stream and all the other animals living in the stream. Even the
trees and shrubs growing near the stream benefit. Bears, eagles, marten, wolves and other
piscivores (fish eaters) haul thousands of carcasses each year onto the stream banks, where
they are partially consumed and left to fertilize the forest.
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From Top to Bottom
“ Scuzz” to Mycorrhizal Fungi
How are these important
to the rainforest?
The Alaskan Rainforest: an ecological web
“Worm fungus” J eff Nichols
Bob Armstrong
Microscopic views of mycorrhizal fungi. Dr. Robin Rose
Less obvious, but no less important, are the inter-relationships that exist on amicroscopic level. Looking closely at the individual needles of old trees, one can see acomplex community of single-cell algae, yeasts and bacteria coating the surface. Scientistscall this “scuzz” and it is food for lots of tiny grazing invertebrates, such as mites and springtails. Moving one step up the food chain, larger invertebrates, such as spiders, preyupon the mites and springtails. Here, finally, is a species that the average hiker in the forest
will notice. Scientists think this microscopic community of grazers and predators explainsthe temperate rainforest’s incredible resistance to attach by insect pests. (Give analogy togarden trees and the use of chemicals to fight insect pests. But the rainforest does it withoutusing poisonous chemicals.)
Just as “scuzz” grown on needles at the top of a towering 200-foot tree, anentirely different microscopic community is at work on the other end of the tree—its roots.Roots branch into finer rootlets that eventually end in millions of tiny “hairs” barely visibleto the human eye. This is where nutrients and water transfer from soil to tree. In a healthyforest, the soil is filled with microscopic organisms, including a special type of mycorrhizalfungi that coat the surface of the tiniest root hairs. These fungi help in the absorption of nutrients and water by the tree, and in return receive nourishment from the tree. Withoutthese fungi, tree growth is limited.
So from the tips of needles to the tips of root hairs and on every surface between, complex ecological relationships are playing themselves out in the Alaskarainforest. It is this interweaving (ecological web) that contributes to the stability and vitality of this unique ecosystem. Untold secrets of the Alaskan rainforest will undoubtedly be discovered by future generations of scientists. Perhaps even some of you! We’ve only begun to scratch the surface.
Can you think of any other inter-relationships in the rainforest? For instance, think aboutfood chains…
Because of shallow soils and high water tables, the roots of 200-foot tall treesoften extend no deeper than 24 inches into the soil. Trees often fall over in the rainy fallseason, when soils are saturated, and winds more than 50 miles per hour sweep onshorefrom the Gulf of Alaska. These fallen trees, and the canopy openings they create, areessential elements of the rainforest.
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The Alaskan rainforest: wildlife
Northern Flying Squirrel
Alexander Archipelago wolf
Sitka black-tailed deer
Rough-skinned newt
The rainforest environment of Alaska is home to at least 40 species of land
mammals, more than 200 species of birds, 5 amphibians and a single reptile species (the
garter snake). The ways in which these species make a living in the rainforest are as
fascinating as they are varied.
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The Alaskan rainforest: every species has a story to tell…
Northern Flying Squirrel Rough-skinned newt
The northern flying squirrel is a small nocturnal mammal known for its
ability to glide on specialized flaps of skin up to 100 yards (the length of a soccer field)
through the forest canopy. This secretive creature eats lichens found in the forest canopy
(treetops) and truffles, an aromatic underground fungi. Different than the seed-eating diets
of most squirrels, this diet is perfectly matched to the moist environment of the Alaskan
rainforest with its diversity and abundance of lichens and fungi.
Another mystery creature of the Alaskan rainforest is the rough-skinned
newt. Considered the most poisonous salamander on earth, glands under its skin contain a
toxin ten times more potent than cyanide. Predators steer clear of this salamander. Despite
looking like a dragon as it creeps through the old-growth understory and emerges from its
favored places beneath rotten logs or small seeps, the four-inch-long newt is really a non-
threatening creature of the rainforest. (as long as you don’t eat them!)
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The Alaskan rainforest: every species has a story to tell…
Alexander Archipelago wolf Sitka black-tailed deer
Larger mammals, like wolves and deer, have been more intensivelystudied than the smaller animals living in the Alaskan rainforest. Beginning in the1970’s, state biologists initiated studies on the role old-growth forest plays inproviding habitat for Sitka black-tailed deer. Among other things, biologists learnedthat the multi-layered canopy of the old-growth forest intercepts (catches) most of
the winter’s snow, making plants on the ground below available to deer. And thelarger the trees, the more snow they intercepted. Biologists also discovered thatplants which were grown in the shade of the forest were more nutritious anddigestible than the same plant species grown in open clearcuts.
Healthy deep populations are important for many reason includingfood for the Alexander Archipelago wolf. A smaller, darker-colored variant of itsnorthern cousins, the Alexander Archipelago wolf is a subspecies linked to therainforest environment. These wolves range over 100-square-mile territories insearch of deer, their primary prey. However, they supplement this diet with someunexpected prey, including waterfowl, seals, salmon and even black bears! One
study found wolves feeding heavily on salmon, foraging similarly to the celebratedbears of coastal Alaska.
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Birds
Bald Eagle Great Horned Owl
Marbled Murrelet
Northern Goshawk
Yellow Warbler
Spruce Grouse American Dipper
J o h n S c h o e n
B o b A r m s t r o n g
J e f f H u g h e s , A D F & G
C r a i g F l a t t e n ,
A D G & G
B o b A r m s t r o n g
C r a i g F l a t t e n ,
A D F & G
J a m i e
W o m b l e
A diverse array of birds inhabit the rainforest. While many rainforest species
are migratory (e.g. warblers, hummingbirds and thrushes), others like ravens, chickadees
and winter wrens remain in the rainforest throughout the year. Unlike most songbirds,
winter wrens defend their territory year-round, giving us songs in all seasons.
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The Alaskan rainforest: birds
Some species such as the northern goshawk prefer undisturbed rainforest for
foraging and successful breeding. Much research has been done on goshawks in Southeast
Alaska, as habitat loss, primarily as a result of logging, poses a threat. The population was
under consideration to be listed as a threatened species under the Nation’s Endangered
Species Act. However a recent decision was made not to list the goshawk. Even so, there is
enough of a threat to these birds in Alaska that it is currently listed as a “Species of SpecialConcern”. State species of concern are given special consideration in the planning and
permitting projects affecting the species’ habitat on state lands.
The marbled murrelet is a seabird that spends most of its life on the ocean.
Unlike most seabirds, the marbled murrelet nests on moss-covered limbs high in old-growth
. These nests are extremely difficult to find, only six have been documented in Southeast
and an additional 27 nests documented in Alaska. Marbled murrelets are dependent upon
old-growth forests for nesting. These birds are listed as a threatened species in British
Columbia and under consideration for listings in Oregon, Washington and California. Here
in Alaska, the marbled murrelet population is approximately 800,000 according to a 1998
Breeding Bird Survey, which used survey data from as far back as 1993/94. Populationtrends for Southeast are not known. However, the population in Prince William Sound has
declined by 80% since 1990 and by 70% in Glacier Bay.
Songbirds, like the yellow warbler, migrate to Alaska to breed and raise their
young. They, not only depend on healthy habitats here in Alaska, but at the wintering
grounds in the lower 48 states, Mexico and even South America. Over the past decade,
songbird populations have been declining. Scientists attribute this decline to several factors,
including loss of habitat, disease, and predation by both natural predators and increasingly
by domestic cats. (Yellow Warblers are not associated with old-growth forests, species like
the Townsend’s Warbler and Pacific Sloped Flycatcher are better examples. However, an
good photo of other neo-tropical migrants is unavailable at this time.)
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After Lo ggi ng
5-10 years
50-75 years
Over 200 years
The Alaskan rainforest: conservation and use
Craig Flatten, ADF&G
The Alaskan rainforest is large – and largely undeveloped. In SoutheastAlaska alone there are hundreds of islands, 15,000 miles of coastline, over 19 million land acres, and over 5 million acres of pristine old-growth rainforest. Most important– over 90%of the land in Southeast Alaska is public land—managed for you. That invites strong public participation and debate over the future of these lands. Some desire a greater emphasis on
logging, mining or tourism developments; others want more wilderness or habitat protectionfor fish and wildlife. The Forest Service makes these land management decisions based onthe best available science. Biologists with the Alaska Department of Fish and Game participate in the process by providing valuable research information. Decisions don’talways end there, sometimes US Congress becomes involved in changing policy decision.
Several research findings have emerged. Clearcut logging creates twodistinct stages of forest succession, both of which differ from the old-growth forests theyreplace. Young clearcuts, less than 30 years old, are relatively open and produce abundantunderstory growth. The value of these early clearcuts to wildlife depends on the species and the season. As we saw in the succession illustration, after 30-35 years, the young treesovertop shrubs and shade out most of the understory plants. These older second-growthstands provide poor habitat for most wildlife species, and are very long-lasting. It takes over
200 years for these stands to reacquire the uneven-aged tree structure and understory of old growth. Because the effects of this habitat change are not realized until decades after logging, and then last for centuries into the future, the full effect on forest wildlife can bedifficult to anticipate.
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The Alaskan rainforest: research
A biologist examines a blueberry plant forevidence of browsing by deer.
Lichens are sensitive to air pollution, and so, area useful indicator of a clean environment.
Matt Kirchhoff, ADF&G
Data collected by ADF&G biologists studying deerpopulations compress snow depths in forest and open area
Matt Kirchhoff, ADF&G
Biologists at the Alaska Department of Fish and Game have been doing
research to better understand the forest’s complex inter-relationships. They have
communicated conservation concerns to policy makers and the public, and have studied
ways to conduct logging in the Alaskan rainforest so that wildlife values are not unduly
compromised. To this end, they have helped design a system of old-growth reserves across
the forest to ensure the future of key wildlife species. Their research has helped managersminimize impacts on bears, marten, goshawks, deer and wolves by recommending
protection of important habitats and the use of alternative tree harvest methods to clearcut
logging.
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Old-Growth Forest in Alaska
Norio Masumoto
This lush rainforest at Trocadero Bay on Prince of Wales Island exhibits the
essential attributes of a temperate rainforest: Large old trees, downed logs on the forest
floor, and an abundant, diverse understory. Stands like these rival tropical rainforests in
terms of the volume of living plant material they contain.
The Alaskan rainforest is an incredible ecosystem—one we are all privileged
to enjoy and use. We have the responsibility, and the opportunity, to preserve the same
options for future generations…your children and theirs!
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J ack Gustafson, ADF&G
The Alaskan rainforest:
How do you describe it?
For information on this program/publication or to find out about additional
educational materials provided by the Alaska Department of Fish and Game, please contact
ADF&F Wildlife Education Coordinator, Robin Dublin at (907) 267-2168, the Southeast
Wildlife Education Specialist, Kristen Romanoff at (907) 465-4292 or check out our
website at www.state.ak.us/adfg.
The Alaska Department of Fish and Game administers all programs and
activities free from discrimination based on race, color, national origin, age, sex, religion,
marital status, pregnancy, parenthood, or disability. The department administers all
programs and activities in compliance with Title VI of the Civil Rights Act of 1964, Section
504 of the Rehabilitation Act of 1973, Title II of the Americans with Disabilities Act of
1990, the Age Discrimination Act of 1975, and Title IX of the Education Amendments of
1972.
If you believe you have been discriminated against in any program, activity,
or facility, or if you desire further information please write to ADF&G, P.O. Box 25526,
Juneau, AK 99802-5526; U.S. Fish and Wildlife Service, 4040 N. Fairfax Drive, Suite 300
Webb, Arlington, VA 22203 or O.E.O., U.S. Department of the Interior, Washington DC20240.
For information on alternative formats for this and other department
publications, please contact the department ADA Coordinator at (voice) 907-465-4120,
(TDD) (907) 465-3646, or (FAX) (907) 465-2440.